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In C++, does the following make sense?

 int a=10;

void fun(const int a)

I can see a program similar to this compile but have linker issues. I just wanted to confirm if assigning a non const var to a const var is apt in C++.

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it is allowed, whenever it makes sense is another issue. – Anycorn Jul 19 '11 at 18:09
Could the linker issues be because fun() is defined after main()? Try adding a prototype above main(). – Praetorian Jul 19 '11 at 18:12
It's not assignment, it binds the const parameter with name a to the value 10. If you think that makes no difference, try it with a parameter whose type has both copy ctor and operator= defined. – Fred Foo Jul 19 '11 at 18:13
Why do i always see function names fun mostly in examples 0_o – user72424 Jul 19 '11 at 18:13
M3taSpl0it: well, I think it's just fun! – tomasz Jul 19 '11 at 18:26

Yes, it is OK.

a cannot be reassigned in fun(), exactly as if it would have been declared that way:

void fun(int param)
    const int a(param);


    a = 5; // this is illegal and won't compile.

As it is passed by copy, there is no impact on main()'s a anyway. Even if fun()'s a was declared as non-const and modified.

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In a function declaration the top level1 const is stripped out by the compiler, while it is kept in the definition.

The reason is that the top level element is copied, and from the point of view of the caller it does not really matter whether the copy is constant or not, so on that end const-ness is not an issue. On the other end, in the definition of the function the argument cont-ness is maintained as it can help the compiler detect unintended modifications of the argument inside the function.

So basically:

void foo( int );
void foo( const int );    // redeclaration of the same function
void foo( const int x ) {
   ++x;                   // error: x is const!!

In the code above there are two exactly equivalent declarations of foo (the compiler will remove the const from the declaration), and a single definition. Because the in the signature of foo in the definition x is declared as a constant integer, the compiler will complain if you try to increment it.

Some people will use the const in the definition to get the compiler to flag ++x as erroneous, but it is not common. On the other hand, whether the argument is declared as int or const int, for the caller they are the same.

1 Note that this only applies to the top level const, which is applicable to arguments passed by value and pointers, but never to references (a reference is always const: you cannot reassign the reference). So these are different function declarations:

void f( int& );
void f( int const & );
void f( int* );            // equivalent to void f( int * const )
void f( int const * );     // equivalent to void f( int const * const )
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It would make sens if you added return types to your functions and had forward-declared fun before you called it (or reversed the order of your functions in that compilation unit).

For a plain int, it doesn't change anything for the caller - the called function can't change the value of that variable in the caller regardless of that qualifier. But for the called function, the parameter is const, so it can't be modified - that makes a difference, not sure if that generally "usefull" or not.

Now consider this:

int foo(int& a);
int bar(int const& a);

Those are two different beasts. bar can only read a, and can take either a plain int or a const int (or a const int&).

foo, on the other hand, can change a if it sees fit, and cannot take a const.

See the Const correctness entry in the C++FAQ Lite for more on this, including information about how this applies (or not) to const-pointers, pointers-to-const and const-pointer-to-const.

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It does matter in the definition, as the compiler will complain if you try to modify the argument in the function definition. In the function declaration, that const is stripped. – David Rodríguez - dribeas Jul 19 '11 at 18:57
@David: good point, thanks. Clarified. – Mat Jul 19 '11 at 19:07
Nitpicking a bit, (well, I am not sure that this is nitpicking really), the exact same behavior applies to pointers, note pointers, not the pointed memory. The equivalent with a pointer to int would be void fun( int * const ), and the const there is again stripped in the declaration, maintained in the definition; which is different from void fun( int const * ) (equivalently void fun( const int* )) where the type changes from pointer to int, to pointer to const int. That is where the difference lays: top-level const will be removed any other one will be kept. – David Rodríguez - dribeas Jul 19 '11 at 19:11
@David: ok. I chickened out and referred to the C++FAQ for the pointer part :-/ – Mat Jul 19 '11 at 19:31

It doesn't make much sense because what you get in the function is a copy of the variable, not the variable itself. But this is legitimate.

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The "assignment" is ok - a in fun is a new variable which is kept constant inside fun.

But fun should have a return type, i.e. void. And there should be a declaration of fun before using it in main.

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You can assign a non-const to a const

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const int a = 9; int b = a; is valid. you are thinking of references – Anycorn Jul 19 '11 at 18:12
I think you mean you can't bind a const to a non-const reference. You may be able to assign consts to non-consts. You can assign const strings to non-const strings, and vice versa, because, the assignment operator makes a copy. (const string cs; string s=cs; is allowed, but const string cs; string & s=cs; is not.) – AFoglia Jul 19 '11 at 18:16

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